JP4500756B2 - Lubricating composition - Google Patents

Description

  The present disclosure relates to a lubricating composition comprising a major amount of lubricating oil comprising less than about 40% by weight alkylcycloparaffins and a minor amount of at least one diarylamine. The lubricating compositions disclosed herein include fluids suitable for use in automatic transmissions, continuously variable transmissions, manual transmissions, gear oils, and engine oils.

  Lubricating oils used in automobile or truck internal combustion engines are exposed to harsh environments during their use. Among other adverse effects, this environment can cause oxidative degradation of the oil. This oil oxidation is catalyzed by the presence of certain impurities in the oil, such as iron compounds. The oxidation action is also promoted by exposing the oil to high temperatures during use. Oxidation during use of the lubricating oil is usually controlled in part by the use of antioxidant additives, for example by reducing or preventing an unacceptable increase in oil viscosity, thereby extending the useful life of the oil. .

  The automatic transmission fluid must be oxidatively stable in order to maintain frictional properties as the fluid ages. In order to test the oxidative stability of these fluids, automotive manufacturers such as General Motors require fluid oxidation and cycling tests. In these tests, the total acid number (TAN) of the oil is measured throughout the test, and the TAN of the oil must be within specified limits at the end of the test.

  Existing lubricating oils using diarylamines and sulfurized compounds are described in Patent Literature 1, Patent Literature 2, and Patent Literature 3.

  U.S. Patent No. 6,099,056 describes a lubricating composition comprising an aromatic amine and a sterically hindered amine. The aromatic amine can be a ring-substituted alkylphenothiazine or a nitrogen-substituted alkylated phenothiazine.

  Patent Document 5 discloses a production process of an organic molybdenum composition that is very useful as a lubricating oil additive. The described process involves the reaction of a fatty oil with a diamine and subsequent reaction with a molybdenum source.

  Patent Document 6 discloses that (1) alkylated diphenylamine, (2) sulfurized olefin / fatty oil and / or ashless dialkyldithiocarbamic acid, and (3 ) Discloses combinations of alkylated phenothiazines.

What is needed is a fluid composition that maintains oxidative stability and frictional properties over time. In addition, the fluid must meet the limits for total acid number specified during and after testing as specified by the automobile manufacturer.
US Pat. No. 5,840,672 US Pat. No. 6,174,842 US Pat. No. 6,326,336 US Pat. No. 5,073,278 US Pat. No. 6,645,921 US Pat. No. 6,599,865

SUMMARY OF THE INVENTION According to various embodiments, a lubricating composition is provided comprising a major amount of lubricating oil comprising less than about 40% by weight alkylcycloparaffins and a minor amount of at least one diarylamine.

  According to various embodiments, improving the oxidative stability of a lubricating composition comprising including in the lubricating composition a lubricating oil comprising less than about 40% by weight alkylcycloparaffin and at least one diarylamine. A method is provided.

  According to various embodiments, a transmission fluid is provided comprising a major amount of lubricating oil comprising less than about 40% by weight alkylcycloparaffin and a minor amount of at least one diarylamine.

  According to various embodiments, improving oxidative stability comprising supplying a fluid composition comprising less than about 40% by weight alkylcycloparaffin and a lubricating oil comprising at least one diarylamine to an engine. A method is provided.

  According to various embodiments, improving oxidative stability comprising supplying a fluid composition comprising a lubricating oil comprising less than about 40% by weight alkylcycloparaffin and at least one diarylamine to a transmission. A method is provided.

  According to various embodiments, a concentrated additive composition comprising a lubricating oil comprising less than about 40% by weight alkylcycloparaffin and at least one diarylamine is provided.

  According to various embodiments, a composition comprising a lubricating oil comprising less than about 40% by weight alkylcycloparaffin and at least one diarylamine is provided. At this time, the composition satisfies the standard of the oxidation test for measuring the change in the total acid value.

  Additional objects and advantages of the invention may be set forth in part in the description which follows, and in part will be apparent from the description, or may become apparent from practice of the invention. The objects and advantages of the invention will be realized and attained by means of the elements and combinations particularly pointed out in the following claims.

  Both the foregoing summary and the following detailed description as claimed are for purposes of illustration and description only and are not intended to limit the invention.

DESCRIPTION OF THE INVENTION According to the present disclosure, a lubricating composition is provided comprising a major amount of lubricating oil comprising less than about 40% by weight alkylcycloparaffins and a minor amount of at least one diarylamine.

  “Major amount” means about 50% or more. “Small amount” means less than about 50%.

  The lubricating composition includes fluid compositions suitable for use as automatic transmission fluid (ATF), continuously variable transmission fluid, manual transmission fluid, fluids used in dual clutch transmissions, gear oils, and engine oils. However, it is not limited to these.

  In the present invention, a conventional non-conventional lubricating oil may be used. For example, the lubricating oil is a paraffinic oil, a naphthenic petroleum, an aromatic oil, a synthetic lubricating oil, a derivative thereof, and a mixture thereof. It is selected from the inside. The paraffinic petroleum includes alkylcycloparaffins such as monocycloparaffins and tetracycloparaffins. Reduction of alkylcycloparaffins and addition of alkylaromatic compounds improves the oxidative stability of the lubricating composition.

  Alkyl cycloparaffins are hydrocarbons that contain at least one cycloparaffinic ring (such as a C6 or C5 ring) with at least one alkyl group. Alkylcycloparaffins include alkylcyclohexane, alkylcyclopentane, alkyldicycloparaffin, and alkylpolycycloparaffin. In the examples, alkylcyclohexane and alkylcyclopentane are used. The alkylcycloparaffin is present in an amount of less than about 40% by weight, for example less than about 30% by weight based on the total weight of the lubricating oil.

  Alkyl aromatic compounds are hydrocarbons that contain at least one aromatic ring with at least one alkyl group. Alkyl aromatic compounds include alkyl benzenes, alkyl naphthalenes, alkyl tetralins, and alkyl polynuclear aromatics. In the examples, alkylbenzene is used.

  A sufficient amount of at least one diarylamine is present in the lubricating composition to provide an antioxidant action. According to particular embodiments, this amount is, for example, at least about 0.40% by weight, based on the total weight of the lubricating composition. The concentration of the at least one diarylamine in the finished lubricating composition will vary depending on the base stock used, customer requirements and applications, and the level of antioxidant defense required for the particular lubricating oil.

  At least one diarylamine is a well-known antioxidant. There is no restriction on the type of at least one diarylamine used in the present invention. For example, at least one diarylamine has the general formula:

Wherein R ¹ and R ² each independently represents a substituted or unsubstituted aryl group having from about 6 to about 30 carbon atoms. Non-limiting examples of substituents for aryl groups include alkyl groups having from about 1 to about 20 carbon atoms, hydroxyl groups, carboxyl groups, and nitro groups, such as about 7 to about 20 carbon atoms in the alkyl group. An alkaryl group having The aryl group is, for example, substituted or unsubstituted phenyl or naphthyl, for example, where one or both aryl groups may be substituted with alkyl having from about 4 to about 18 carbon atoms . In embodiments, both aryl groups may be substituted, for example as alkyl-substituted phenyl.

  The at least one diarylamine used in accordance with the present disclosure may have a structure that is different from the structure represented in the above formula where only one nitrogen atom is shown in the molecule. Thus, for example, in addition to one nitrogen with two aryl groups, about two aryl groups are attached to at least one nitrogen, as in the case of various diamines having secondary nitrogen atoms. In some cases, the at least one diarylamine can have a different structure. At least one diarylamine used in the present invention has an antioxidant action in the lubricating oil.

  The at least one diarylamine is oil soluble. Non-limiting examples of at least one diarylamine used in this disclosure include: diphenylamine, various alkylated diphenylamines, 3-hydroxydiphenylamine, N-phenyl-1,2-phenylenediamine, N-phenyl-1, 4-phenylenediamine, monobutyldiphenylamine, butyldiphenylamine, dibutyldiphenylamine, monooctyldiphenylamine, octyldiphenylamine, dioctyldiphenylamine, monononyldiphenylamine, nonyldiphenylamine, dinonyldiphenylamine, heptyldiphenylamine, diheptyldiphenylamine, methylstyryldiphenylamine, phenyl-alpha -Naphthylamine, phenyl-beta-naphthylamine, diheptyldiphenylamine, p Oriented styrenated diphenylamine, monotetradecyldiphenylamine, ditetradecyldiphenylamine, monooctylphenyl-alpha-naphthylamine, monoheptyldiphenylamine, p-oriented styrenated diphenylamine, butyl-octyl mixed alkylated diphenylamine, butyl-styryl mixed alkylated diphenylamine, Nonyl / ethyl mixed alkylated diphenylamine, octyl / styryl mixed alkylated diphenylamine, ethyl / methylstyryl mixed alkylated diphenylamine, octyl alkylated phenyl-alpha-naphthylamine, mixed alkylated phenyl-alpha-naphthylamine, and commonly used in the petroleum industry These combinations with varying purity are included.

Non-limiting examples of commercially available diarylamines include, for example, IRGANOX L06 ^TM of Ciba Specialty Chemicals (Ciba Specialty Chemicals), IRGANOX L57 TM, and IRGANOX L67 ^TM; Crompton Corporation (Crompton Corporation) NAUGALUBE AMS ^{TM , NAUGALUBE 438 TM, NAUGALUBE 438R TM} , NAUGALUBE 438L TM, NAUGALUBE 500 TM, NAUGALUBE 640 TM, NAUGALUBE 680 TM, and NAUGARD PANA ^TM; BF GOODRITE 3123 ^TM of Goodrich Specialty Chemicals (BF Goodrich Specialty Chemicals), GOOD ^{ITE 3190X36 TM, GOODRITE 3127 TM,} GOODRITE 3128 TM, GOODRITE 3185X1 TM, GOODRITE 3190X29 TM, GOODRITE 3190X40 TM, GOODRITE 3191 TM, and GOODRITE 3192 ^TM; New Market Service, Inc. (NewMarket Services Corporation, formerly Ethyl Corporation (Ethyl Corporation) ) HiTEC 569 ^™ antioxidant, HiTEC 7190 ^™ , and HiTEC 4793 ^™ antioxidant available from; T. T. VANLUBE DND ^TM Vanderbilt Co. (R.T.Vanderbilt Company Inc), VANLUBE NA TM, VANLUBE PNA TM, VANLUBE SL TM, VANLUBE SLHP TM, VANLUBE SS TM, VANLUBE 81 TM, VANLUBE 848 TM, and VANLUBE 849 ^TM is included.

Without being limited to any particular logic, a lubricating composition comprising less than about 40% by weight alkylcycloparaffin and a large amount of lubricating oil comprising a minor amount of at least one diarylamine is considered oxidatively stable. It is done. One method of measuring the oxidative stability of a composition is that the composition meets the criteria of an oxidation test that measures changes in TAN (total acid number). An example of an oxidation test is the 2003 FMC BJ 10-4, Rev. 1, MERCON ^® Aluminum Beaker (Aluminum Beaker) Oxidation Test (ABOT), the disclosure of which is incorporated herein by reference. . Using this test, the TAN change of a composition comprising less than about 40% by weight alkylcycloparaffin and a large amount of lubricating oil containing a minor amount of at least one diarylamine is 5 or less. MERCON V ^(R) Aluminum Beaker ^(aluminum beaker) Oxidation Test (ABOT) requires that the change in total acid number of the composition is less than about 3.5. As another example, October 2003, G., the disclosure of which is incorporated herein by reference. M.M. DEXRON ^(R) -III, H Revision, ATF GMN10055, oxidation tests require that the total acid number change of the composition be less than about 3.25, and cycle testing requires that the total acid number of the composition be Is required to be less than about 2.0. Test names in the manual are: Q oxidation test and R cycle test. Q and R are item letters in the manual. Other letters refer to other tests. These oxidation and cycle tests are described in detail in the appendix of the manual.

  The lubricating composition may include at least one additive in an appropriate ratio, thereby providing a multi-function additive package. Examples of at least one additive used include dispersants, detergents, antioxidants, dispersion media, metal activity reducing agents, dyes, markers, corrosion inhibitors, insecticides, antistatic agents, drag reducing agents. , Demulsifier, anti-fogging agent, anti-freezing agent, anti-knock agent, anti-bubble sheet recession agent, lubricating additive, auxiliary agent, low temperature flow improver, friction modifier, antiwear agent, antifoaming agent, viscosity Examples include, but are not limited to, index improvers, rust inhibitors, seal expansion agents, metal activity reducers, and air removal agents.

  In selecting at least one additive, the selected additive is soluble or stable dispersible in the additive package and the finished composition, compatible with the other components of the composition, Also, it must be ensured throughout the finished composition that it does not significantly interfere with the performance characteristics of the composition, such as better oxidative stability that is required or required as applicable.

  For convenience, the at least one additive may be supplied as a concentrate for dilution. Such concentrates form part of the present invention and usually comprise from about 99 to about 1% by weight additive and from about 1 to about 99% by weight solvent or diluent for the additive. The solvent or diluent can then be mixed and / or dissolved in the composition in which the concentrate is used. Of course, the solvent or diluent may itself be a lubricating oil.

  Typically, the at least one additive is used in a small amount sufficient to improve the performance characteristics and properties of the base oil. Thus, the amount of additive depends on the viscosity characteristics of the base oil used, the viscosity characteristics desired for the finished fluid, the conditions of use for which the finished fluid is intended, and the performance characteristics desired for the finished fluid. It depends on factors.

  Of course, the individual components used can be mixed separately in the base oil or mixed as various sub-combinations as required. Usually the specific order of such mixing steps is not critical. Furthermore, such components can be mixed into the diluent as separate solutions. However, according to various embodiments, the additive is in the form of a concentrate because the mixing operation is simplified, the possibility of mixing errors is reduced, and the compatibility and solubility of the entire concentrate is exploited. Mixed.

  According to various embodiments, the composition of the transmission fluid is used in a vehicle transmission such as a torque converter.

  Furthermore, the lubricating compositions are used in various oil forms for machine lubrication, such as gear oils and engine oils.

  In the oxidation test, fluid is bubbled into the automatic transmission that has been operated for 450 hours with an electric motor. At the end of the 450 hour test, the TAN of the used oil is measured and compared to the TAN of fresh oil.

  In cycle testing, fluid is applied to an automatic transmission driven by the engine. The transmission is circulated 32,000 times from the low gear to the fourth gear. The TAN of the oil used at the end of 32,000 cycles is measured and compared with the TAN of fresh oil.

  The GC-MS technique was used to determine the composition of the base oil that was used to formulate the automatic transmission fluid. Using this technique, the ratio of monocycloparaffins and tetracycloparaffins in the fluid was determined. The disclosure of which is incorporated herein by reference, 1992, I.D. Dzidic, H.C. A. Petersen, P.M. A. Wadsworth and H.W. V. Hart, “Townsend Discharge Nitric Oxidative Chemical Ionization Chemical Gas Mass Chromatography for Mass Analysis of Hydrocarbons in Middle Distilled Gas Nitrogen Oxide Chemical Ionization Gas Chromatography Middle Gas Dioxide Gas Chromatography Hydromass. 64, 2227.

  Diarylamines are known to improve the oxidative stability of oils, and diarylamines are known to be more effective in Group II oils than Group I oils. The disclosure of which is incorporated herein by reference, C.I. A. Migdal, 2003, “Antioxidants” in Lubricant Additives: Chemistry and Applications, Leslie R. Edited by Rudnick, Marcell Dekker, Inc. , New York. Furthermore, when the concentration of double-ring and multi-ring concentrated cycloparaffin in the oil is reduced, the oxidation stability of the oil is improved. The disclosure of the 12th International Tribology Meeting, 2000, Esslingen, Germany, V., the disclosure of which is incorporated herein by reference. J. et al. Gatto, M.M. A. Grina, H.C. T.A. Ryan, “The Influence of Chemical Structure on the Physical and Performance Properties of Hydrocracked Bases and Physical Properties Performance Properties of Hydroalphalyzed Basestocks and Polyalphaolefins”.

  However, according to the examples in the table below, the concentration of monocycloparaffins in the base oil is a factor related to oxidation control in transmission tests, and there are numerous potential formulations of monocycloparaffins, tetracycloparaffins, and The diarylamine concentration range has been shown to meet the oxidative stability required in transmission tests.

  In the table below, Example A and Example B are formulated with Group I base oils, and Examples C through H are formulated with Group II base oils.

  Comparative Examples A and B consist of a combination of a base oil containing about 30 wt% or more monocycloparaffin and about 2.5 wt% or more tetracycloparaffin and two types of DPA containing about 0.5 wt%. The dGM results of GMOT and GM cycling tests of oil are shown. Both oils did not meet the GM cycle test dTAN requirement, and Comparative Example B did not meet the GMOT dTAN requirement. Examples C, D, E, and G of the present invention have a monocycloparaffin weight percent in the base oil mixture of less than about 30, a tetracycloparaffin weight percent of less than about 2.0, and at least about 0. When combined with an oil containing .40 wt% DPA, it is shown that dTAN results that pass both GMOT and GM cycle tests are obtained. Comparative Example F includes an ATF containing a base oil mixture containing less than about 30% by weight monocycloparaffins and about 2.0% by weight or more tetracycloparaffins when about 0.50% by weight DPA is formulated It shows that the dTAN value of the oil is higher in the GMOT test. Finally, Comparative Example H shows that an ATF containing a base oil mixture containing less than about 30% by weight monocycloparaffin and less than about 2.0% by weight tetracycloparaffin has about 0.25% by weight DPA. When blended, the dTAN value of the oil is higher in the GMOT and GM cycle tests than in the inventive examples, indicating that the dTAN requirement of the GM cycle test is not met. Comparative Examples F and H also do not all Group II base oils meet the dTAN requirements of GMOT and GM cycle tests, but several different concentrations of monocycloparaffin, tetracycloparaffin and diarylamine antioxidants. May be required.

  Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. In light of the true scope and spirit of the invention as set forth in the following claims, the specification and examples of the invention are intended to be considered as illustrative only.

The features and aspects of the present invention are as follows.
1. A lubricating composition comprising a major amount of a lubricating oil comprising less than about 40% by weight alkylcycloparaffins and a minor amount of at least one diarylamine.
2. 2. The lubricating composition according to 1 above, wherein the lubricating oil is a paraffinic oil.
3. 2. The lubricating composition according to 1 above, wherein the alkylcycloparaffin is selected from the group consisting of monocycloparaffin and tetracycloparaffin.
4). 4. The lubricating composition of claim 3, wherein the monocycloparaffin is present in the composition in an amount less than about 30% by weight relative to the total weight of the composition.
5). 4. The lubricating composition of claim 3, wherein the tetracycloparaffin is present in the composition in an amount of less than about 2.0% by weight relative to the total weight of the composition.
6). 2. The lubricating composition of claim 1, wherein the lubricating oil comprises less than about 30% by weight monocycloparaffin and less than about 2.0% by weight tetracycloparaffin relative to the total weight of the composition. .
7). The lubricating composition of claim 1, wherein the at least one diarylamine is present in the composition in an amount of at least about 0.40% by weight, based on the total weight of the composition.
8). 2. The lubricating composition according to 1 above, wherein at least one diarylamine is diphenylamine, alkylated diphenylamine, 3-hydroxydiphenylamine, N-phenyl-1,2-phenylenediamine, N-phenyl-1,4-phenylenediamine. , Monobutyldiphenylamine, butyldiphenylamine, dibutyldiphenylamine, monooctyldiphenylamine, octyldiphenylamine, dioctyldiphenylamine, monononyldiphenylamine, nonyldiphenylamine, dinonyldiphenylamine, heptyldiphenylamine, diheptyldiphenylamine, methylstyryldiphenylamine, phenyl-alpha-naphthylamine, phenyl -Beta-naphthylamine, diheptyldiphenylamine, p-oriented stylus Diphenylamine, monotetradecyldiphenylamine, ditetradecyldiphenylamine, monooctylphenyl-alpha-naphthylamine, monoheptyldiphenylamine, p-oriented styrenated diphenylamine, butyl / octyl mixed alkylated diphenylamine, butyl / styryl mixed alkylated diphenylamine, nonyl From the group consisting of ethyl mixed alkylated diphenylamine, octyl styryl mixed alkylated diphenylamine, ethyl methylstyryl mixed alkylated diphenylamine, octyl alkylated phenyl-alpha-naphthylamine, mixed alkylated phenyl-alpha-naphthylamine, and combinations thereof The lubricating composition selected.
9. A method of improving the oxidative stability of a lubricating composition comprising including in the lubricating composition a lubricating oil comprising less than about 40% by weight alkylcycloparaffin and at least one diarylamine.
10. The method of claim 9, wherein the at least one diarylamine is present in the composition in an amount of at least about 0.40% by weight, based on the total weight of the composition.
11. 10. The method according to 9 above, wherein at least one diarylamine is diphenylamine, various alkylated diphenylamines, 3-hydroxydiphenylamine, N-phenyl-1,2-phenylenediamine, N-phenyl-1,4-phenylenediamine, Monobutyldiphenylamine, butyldiphenylamine, dibutyldiphenylamine, monooctyldiphenylamine, octyldiphenylamine, dioctyldiphenylamine, monononyldiphenylamine, nonyldiphenylamine, dinonyldiphenylamine, heptyldiphenylamine, diheptyldiphenylamine, methylstyrylheptyldiphenylamine, phenyl-alpha-naphthylamine -Beta-naphthylamine, diheptyldiphenylamine, p-coordinate Styrenated diphenylamine, monotetradecyldiphenylamine, ditetradecyldiphenylamine, monooctylphenyl-alpha-naphthylamine, monoheptyldiphenylamine, p-oriented styrenated diphenylamine, butyl / octyl mixed alkylated diphenylamine, butyl / styryl mixed alkylated diphenylamine, nonyl From the group consisting of ethyl mixed alkylated diphenylamine, octyl styryl mixed alkylated diphenylamine, ethyl methylstyryl mixed alkylated diphenylamine, octyl alkylated phenyl-alpha-naphthylamine, mixed alkylated phenyl-alpha-naphthylamine, and combinations thereof The method chosen.
12 10. The method according to 9 above, wherein the alkylcycloparaffin is selected from the group consisting of monocycloparaffin and tetracycloparaffin.
13. 13. The method of claim 12, wherein the monocycloparaffin is present in the composition in an amount less than about 30% by weight relative to the total weight of the composition.
14 13. The method of claim 12, wherein the tetracycloparaffin is present in the composition in an amount less than about 2.0% by weight, based on the total weight of the composition.
15. 10. The method of claim 9, wherein the lubricating oil comprises less than about 30% by weight monocycloparaffin and less than about 2.0% by weight tetracycloparaffin relative to the total weight of the composition.
16. A method for lubricating an engine, wherein the engine is lubricated with the lubricating composition according to 1 above.
17. A transmission fluid comprising a major amount of lubricating oil comprising less than about 40% by weight alkylcycloparaffin and a minor amount of at least one diarylamine.
18. 18. The fluid composition according to 17 above, wherein the lubricating oil is a paraffinic oil.
19. 18. The fluid composition according to 17 above, wherein the alkylcycloparaffin is selected from the group consisting of monocycloparaffin and tetracycloparaffin.
20. 20. The fluid composition as described in 19 above, wherein the monocycloparaffin is present in the composition in an amount of less than about 30% by weight, based on the total weight of the composition.
21. 20. The fluid composition as described in 19 above, wherein the tetracycloparaffin is present in the composition in an amount of less than about 2.0% by weight, based on the total weight of the composition.
22. 18. The fluid composition of claim 17, wherein the lubricating oil comprises less than about 30% monocycloparaffin and less than about 2.0% tetracycloparaffin relative to the total weight of the composition. Composition.
23. The fluid composition of claim 17, wherein the at least one diarylamine is present in the composition in an amount of at least about 0.40% by weight, based on the total weight of the composition.
24. 18. The fluid composition according to the above 17, wherein at least one diarylamine is diphenylamine, various alkylated diphenylamines, 3-hydroxydiphenylamine, N-phenyl-1,2-phenylenediamine, N-phenyl-1,4- Phenylenediamine, monobutyldiphenylamine, butyldiphenylamine, dibutyldiphenylamine, monooctyldiphenylamine, octyldiphenylamine, dioctyldiphenylamine, monononyldiphenylamine, nonyldiphenylamine, dinonyldiphenylamine, heptyldiphenylamine, diheptyldiphenylamine, methylstyryldiphenylamine, phenyl-alpha-naphthylamine , Phenyl-beta-naphthylamine, diheptyldiphenylamine, p- Styrenated diphenylamine, monotetradecyldiphenylamine, ditetradecyldiphenylamine, monooctylphenyl-alpha-naphthylamine, monoheptyldiphenylamine, p-oriented styrenated diphenylamine, butyl-octyl mixed alkylated diphenylamine, butyl-styryl mixed alkylated diphenylamine, Nonyl / ethyl mixed alkylated diphenylamine, octyl / styryl mixed alkylated diphenylamine, ethyl / methylstyryl mixed alkylated diphenylamine, octyl alkylated phenyl-alpha-naphthylamine, mixed alkylated phenyl-alpha-naphthylamine, and combinations thereof A composition selected from:
25. 18. The fluid composition as described in 17 above, wherein the fluid composition is selected from the group consisting of fluids used in automatic transmission fluid, continuously variable transmission fluid, manual transmission fluid, and dual clutch transmission. Composition.
26. The fluid composition according to 17 above, and further, a dispersant, a detergent, an antioxidant, a dispersion medium, a metal activity reducing agent, a dye, a marker, a corrosion inhibitor, an insecticide, an antistatic agent, a drag reducing agent, Demulsifier, anti-fogging agent, anti-freezing agent, anti-knock agent, anti-bubble sheet recession agent, lubricant additive, auxiliary agent, low-temperature flow improver, friction modifier, antiwear agent, antifoaming agent, viscosity index A composition further comprising at least one additive selected from the group consisting of an improver, a rust inhibitor, a seal swelling agent, a metal activity reducing agent, and an air removing agent.
27. A vehicle including a transmission, wherein the transmission includes the transmission liquid composition as described in 17 above.
28. A method for improving oxidative stability, comprising supplying a fluid composition to an engine comprising a lubricating oil comprising less than about 40% by weight alkylcycloparaffins and at least one diarylamine.
29. A method of improving oxidative stability, comprising providing a transmission with a fluid composition comprising a lubricating oil comprising less than about 40% by weight alkylcycloparaffins and at least one diarylamine.
30. A concentrated additive composition comprising a lubricating oil comprising less than about 40% by weight alkylcycloparaffin and at least one diarylamine.
31. 30. The concentrated additive composition according to 30 above, and further, a dispersant, a detergent, an antioxidant, a dispersion medium, a metal activity reducing agent, a dye, a marker, a corrosion inhibitor, an insecticide, an antistatic agent, and a drag reduction Agent, demulsifier, anti-fogging agent, anti-freezing agent, anti-knock agent, anti-bubble sheet recession agent, lubricant additive, auxiliary agent, low-temperature flow improver, friction modifier, antiwear agent, antifoaming agent, A composition comprising at least one additive selected from the group consisting of a viscosity index improver, a rust inhibitor, a seal swelling agent, a metal activity reducing agent, and an air removing agent.
32. A composition comprising a lubricating oil comprising less than about 40% by weight alkylcycloparaffin and at least one diarylamine, wherein the composition meets the criteria of an oxidation test for measuring changes in total acid number object.
33. 33. The composition according to 32 above, wherein the change in the total acid value is about 5 or less.
34. 33. The composition according to 32 above, wherein the change in the total acid value is less than about 3.25.
35. 33. The composition according to 32 above, wherein the change in the total acid value is less than about 2.0.
36. 33. A vehicle comprising the composition according to 32 above.
37. 33. An automatic transmission comprising the composition according to 32 above.

Claims (7)

At least of the total weight for at least 0.40% by weight of the large amount of lubricating oil containing tetra cycloparaffins below 0% more 30 more than monocycloparaffins and 0% to less than wt% 2.0 wt% and the composition A lubricating composition comprising one diarylamine . A method of improving the oxidation stability of a lubricating composition, the lubricating oil as well as compositions containing tetra cycloparaffins below 0% more 30 more than monocycloparaffins and 0% to less than wt% 2.0 wt% total weight with respect to the inclusion of at least 0.40% by weight of at least one diarylamine in the lubricating composition, wherein the. At least of the total weight for at least 0.40% by weight of the large amount of lubricating oil containing tetra cycloparaffins below 0% more 30 more than monocycloparaffins and 0% to less than wt% 2.0 wt% and the composition A transmission fluid comprising one diarylamine. 0% more than 30 wt% monocycloparaffins and 0% more than 2.0 wt% tetra total weight of cycloparaffins laden lubricating oil as well as compositions to at least 0.40% by weight of at least one A method for improving oxidative stability , comprising supplying a fluid composition comprising a diarylamine to an engine. 0% more than 30 wt% monocycloparaffins and 0% more than 2.0 wt% tetra total weight of cycloparaffins laden lubricating oil as well as compositions to at least 0.40% by weight of at least one A method for improving oxidative stability comprising feeding a fluid composition comprising a diarylamine to a transmission. A lubricating oil comprising more than 0% and less than 30% monocycloparaffin and more than 0% and less than 2.0% tetracycloparaffin , and at least one at least 0.40% by weight relative to the total weight of the composition ; A concentrated additive composition comprising a diarylamine. 0% more than 30 wt% monocycloparaffins and 0% more than 2.0 wt% tetra total weight of cycloparaffins laden lubricating oil as well as compositions to at least 0.40% by weight of at least one a composition comprising a diarylamine, wherein the composition satisfies the criteria of MERCON ^(R) Aluminum Beaker oxidation test, composition characterized in that.